The Secrets to High-Quality Micropore Isotherms | 3: Optimizing Manifold Designs
In this four-part series, Anton Paar experts reveal how to achieve consistent, accurate results using the Autosorb gas sorption analyzer. Each 10-15-minute session focuses on a critical factor in micropore isotherm quality, offering practical insights for reliable, high-resolution data.
At the core of every stable and repeatable sorption measurement lies a well-engineered manifold. This webinar takes a detailed look at how manifold design impacts analytical precision and how optimized architecture ensures exceptional measurement control.
Gain insight into the importance of leak-tight construction, precise temperature regulation, and reduced internal volume, all of which enhance data quality.
You will also learn the advantages of independent analysis stations, which allow multiple samples to run simultaneously without cross-interference. By understanding these key design principles, you’ll be better equipped to get the most out of every isotherm measurement.
Dr. Brian Rodenhausen is the Principal Application Scientist in the Particle and Porous Materials Characterization group at Anton Paar USA. He has over a decade of experience teaching users the theory and practice of analytical instruments, as well as advising them on the design of experiments and interpretation of results. His research background focused on label-free characterization of asorbate layers at the solid-liquid interface. He received his Ph.D. in chemical engineering from the University of Nebraska-Lincoln (UNL) and did post-doctoral work at UNL and the Leibniz Institute of Polymer Research in Dresden, Germany.
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